Activation-dependent post-transcriptional regulation of CD40L mediates B cell development and survival in germinal centers

Abstract

Abstract We have described a posttranscriptional pathway of induced mRNA stability that occurs at late times of T cell activation and is engaged by the binding of a polypyrimidine tract-binding protein (PTBP1) complex to the 3′UTR of the CD40L transcript. We explored the in vivo role of this pathway by generating a mouse bearing a deletion of the CD40L stability element (termed CD40LΔ5) and found that Tfh cells harboring the stability defect expressed approximately 60% of WT CD40L. Importantly, this decrease in CD40L corresponded to a poorly elaborated germinal center (GC) response which included significantly decreased levels of switched antibodies, antibody-secreting cells, GL7+ B cells and differentiated GC B cell subsets. In contrast, there was little difference in either somatic hypermutation or affinity maturation between B cells from WT compared to CD40LD5 mice. Notably, both the number and percentage of early memory B cells and plasmablasts were significantly decreased indicating that CD40L expression linked to mRNA stability was critical for B cell differentiation. To understand the impact of this stability pathway on gene expression, CD19+ B cells from CD40LD5 immunized mice were transcriptionally profiled using RNAseq and pathways associated with cell survival and proliferation were downregulated and apoptotic pathways upregulated compared to WT B cells. Importantly, the level of AID mRNA was unchanged whereas c-myc expression was significantly reduced in GL7+ B cells. Together these findings reveal that the CD40L stability element plays a critical role in regulating CD40L expression in Tfh cells, which in turn supports the optimal proliferation and cell survival of high affinity GC B cells and the differentiation of B cell subsets.